CHAPTER XXXVIII.
I. Cycadean Stems other than Cycadeoidea.
Most of the stems now under consideration are represented by casts or impressions and afford no information with regard to anatomical characters. They are in many cases more slender and less tuberous than typical Cycadeoideas, and a few are characterised by an irregular form of branching, as is shown in some specimens of pith-casts from Wealden strata in Tilgate Forest figured by Mantell[1318] and now in the British Museum. The genus Wielandiella[1319] (fig. 566) is an altogether distinct type represented by flowers as well as vegetative organs. Several generic names have been proposed for Cycadean stems agreeing with those of many recent Cycads in the possession of an armour of persistent leaf-bases, but distinguished from Cycadeoidea in the absence of any fertile lateral shoots intercalated among the petiole-bases. It is, however, impossible in most cases to give any satisfactory definition by which these genera can be distinguished from one another; the characters employed by Carruthers[1320], Saporta[1321], and other authors are of comparatively little importance as trustworthy criteria and to a large extent are merely the expression of different states of preservation or of differences in age. Attention has elsewhere been called to the absence of any clear dividing line between stems referred to Bucklandia, Yatesia, Fittonia and Cylindropodium. The species Cycadeoidea gigantea described on a previous page affords an instructive example of the difficulty of drawing a generic distinction between certain types of Cycadean stems: in habit, in the form and structure of the leaf-bases, and in the ramenta this species is identical with other species of Cycadeoidea, but it differs in the absence of lateral fertile shoots, a feature that may have no morphological significance. It has already been pointed out that the absence of flowers intercalated among the leaf-bases may simply mean that the plant had not reached the stage of flower-production, or their absence may be due to some unfavourable conditions. Similarly the stems for which Saporta proposed the generic name Clathropodium agree in every respect with Cycadeoidea except in the absence, apparent or real, of lateral flowering branches. Such types as Clathropodium foratum Sap. and C. sarlatense Sap.[1322], the latter probably from Upper Jurassic beds and the former from an unknown locality, should be included in the genus Cycadeoidea. The stem referred by Saporta to his genus Platylepis as P. micromyela[1323] was originally assigned to Cycadeoidea and more recently Lignier has wisely adopted the original generic name. The generic term Bolpopodium, also instituted by Saporta[1324], is applied to small tuberous stems which appear to be identical with the Cycadeoidea type.
Having regard to the meagre data supplied by casts of stems preserved in various stages of defoliation, and in view of the impossibility of drawing other than purely arbitrary generic distinctions, it is preferable to employ one generic name in a liberal sense for stems that there is good reason to regard as plants that cannot reasonably be referred to Cycadeoidea. The name Bucklandia is thus employed, and a few examples are described in illustration of the external features of stems that are undoubtedly Cycadean but in most cases readily distinguished from Cycadeoidea. There are substantial grounds for stating that plants which bore flowers of the Williamsonia type possessed stems having the characters of Bucklandia. It should, however, be remembered that we cannot always draw a clearly defined distinction between flowers included in Williamsonia and Bennettites, or Cycadeoidea, particularly when they are represented only by detached ovulate strobili as in Cycadeoidea (Bennettites) Morierei and Williamsonia scotica.
BUCKLANDIA. Presl.
Bucklandia was proposed by Presl[1325] for a plant described by Mantell[1326] from the Wealden of Tilgate Forest and compared by him to the Euphorbiaceae and arborescent Ferns; the same generic name was given by Robert Brown in 1832 to a recent member of the Hamamelidaceae. Stokes and Webb[1327] referred the same fossil to Clathraria, a name applied by Brongniart[1328] to certain types of Sigillarian stems and afterwards adopted by him for the Tilgate Forest species, C. Lyelli. Presl ‘with remarkable discrimination’ recognised the Cycadean nature of the specimen. Carruthers[1329] in his definition of Bucklandia includes a statement as to the nature of the carpellary leaves and suggests that a cone associated with the stems may be a staminate strobilus: the cone is undoubtedly a megastrobilus of an Araucarian plant and there is no evidence with regard to the nature of either the male or female reproductive organs in the material that he describes though, as already pointed out, there are reasons for believing that Williamsonia flowers were borne on branches of Bucklandia stems. The flowering shoots were not short and intercalated among the petiole-bases as in Cycadeoidea with the strobili barely projecting beyond the surface of the leaf-base armour, but they formed comparatively long branches, sometimes forked, at the apex of the main stem (cf. figs. 541–543).
Bucklandia is usually represented by casts, from Rhaetic to Lower Cretaceous strata, differing from Cycadeoidea in the absence of numerous axillary short fertile shoots, in the more slender form and greater length of the stems, and in the less uniform size of the persistent leaf-bases which assume various forms. Some of the specimens reach a length of 4 feet and afford evidence of occasional branching: the surface is covered with leaf-bases preserved as imbricate, broad, and obtuse or truncate scales (fig. 575), or as slightly convex polygonal areas in some cases showing a tendency towards an irregular zonal arrangement of larger and smaller leaf-bases (fig. 576). Within the armour of leaf-bases there may be a cast of the large pith the surface-features of which are practically identical with the cast of a recent pith reproduced in fig. 398. Casts of the pith preserved as separate fossils are included in the genus Cycadeomyelon.
There is evidence of the occurrence of more than one zone of vascular tissue in a stem from Lower Greensand beds of Bedfordshire described by Carruthers as Yatesia Morrisii[1330] (= Bucklandia Yatesii), and Dr Stopes[1331] has recently described a species, B. buzzardensis (fig. 578), with several zones of conducting tissue. This feature has not so far been satisfactorily demonstrated in Cycadeoidea. An Indian species, Bucklandia indica, shows that the secondary xylem is more compact than in typical Cycadeoidea stems, and the tracheids have multiseriate pitting.
Two long and narrow stems figured by Nathorst from the Rhaetic of Scania as Bucklandia Saportana[1332] differ from other species in the irregular arrangement of the leaf-bases which in certain regions are crowded as in the typical example of the genus shown in fig. 576, but in the intervening portions of the stem they are few in number and widely separated by the finely striated bark. This type, though similar to some specimens of English, Mexican, and Indian Bucklandias in the zonal differences in the leaf-bases, represents an extreme case of the alternation of smaller and crowded and larger and scattered leaf-scars. It is by no means unlikely that Bucklandia Saportana forms a transition between Bucklandia and the stem of Wielandiella described by Nathorst from the same region: in Wielandiella the leaf-scars are concentrated at the region of forking but a few occur elsewhere: in B. Saportana there is no evidence of branching and in this respect it differs from Wielandiella.
Bucklandia anomala (Stokes and Webb).
This species, from Wealden beds in Sussex, was first described by Stokes and Webb[1333] as Clathraria anomala, and the same type was figured by Mantell and other authors as Clathraria Lyelli. The specimens referred by Carruthers to Bucklandia anomala and B. Mantelli[1334] do not exhibit any well defined specific differences, and there would seem to be no reason for retaining both specific names. The petiole-bases are usually sub-rhomboidal in form and convex or flat, but in some stems more of each petiole is preserved and the surface is covered with broad imbricate scales (fig. 575) similar to some of the detached scales described under the generic name Cycadolepis. Pith-casts occur both in connexion with the Bucklandia stems and as detached specimens. The leaf-bases often show an irregular zonation of smaller and larger rhomboidal areas. The pith-cast in the lower part of the specimen from the Wealden of Cuckfield in Sussex shown in fig. 575 is 5 × 3·5 cm. in diameter.
Bucklandia Ruffordi Seward.
This species, from the Wealden beds on the Sussex coast[1335], was originally described as Fittonia Ruffordi, but in the absence of any well defined distinctive features that can be regarded as of morphological significance it is better to include it in Bucklandia. The species affords a good example of a long and narrow type of stem, one specimen reaching a length of nearly 80 cm. with a breadth of about 10 cm.; the surface is covered with persistent leaf-bases 1·7 cm. in depth with a scar agreeing in size and shape with the base of a frond of Otozamites Goeppertianus (Dunk.)[1336] found in the same beds. There is no indication of any alternation of large and small leaf-bases, and the species is characterised by the uniform size and relatively greater depth in a vertical direction of the leaf-base areas. In all probability the stem bore fertile branches similar to those of Williamsonia gigas with flowers of the Williamsonia type: the fronds may have been those known as Otozamites Goeppertianus, but this has not been demonstrated. A stem described by Carruthers from the Lias of Lyme Regis as Yatesia gracilis[1337] and afterwards included by me in Cycadeoidea[1338] is very similar to B. Ruffordi in its long and narrow form and in the shape of the leaf-bases; it should be transferred to Bucklandia as B. gracilis (Carr.).
Bucklandia Milleriana Carruthers.
This species was founded on a cast from Lower Oolite beds at Brora in Sutherlandshire[1339] characterised by leaf-bases very similar to those of B. anomala but smaller. Casts from the same locality were named by Carruthers Yatesia crassa and Y. Joassiana[1340], but an examination of specimens in the Dunrobin Museum leads me to regard these forms as indistinguishable from B. Milleriana. The specimen reproduced in fig. 576 from the Great Oolite of Brora illustrates the external characters of a typical stem and shows the variation in the size of the leaf-bases. A portion of the pith-cast is exposed in the lower part of the stem.
Bucklandia Yatesii (Carruthers).
This type from the Lower Greensand of Bedfordshire (fig. 577) was described by Carruthers as Cycadeoidea Yatesii and subsequently named Yatesia Morrisii[1341]. Ward expressed the opinion that the name should be Yatesia Yatesii, but as Bucklandia is now used to include Yatesia this combination is fortunately avoided. The stem is cylindrical, 20–30 cm. long and 12 cm. in diameter, covered with rhomboidal leaf-bases separated from one another by a ramental reticulum. There are two concentric vascular cylinders as stated by Carruthers. In a recent account of this species Dr Stopes[1342] adds further details: the xylem-cylinders are 5–8 mm. wide and the tracheids occur in single rows or there may be bands 4–5 elements broad; the circular bordered pits are uniseriate or in two alternate series. The medullary rays are broad but the cells are not preserved. The pith-cast is of the usual Cycadean type.
The type-specimen was presented by the Cirencester College to the British Museum.
Bucklandia buzzardensis (Stopes).
This species, from Lower Greensand beds at Leighton Buzzard and believed to be derived from Wealden strata, is described by Dr Stopes[1343] as Cycadeoidea buzzardensis. Though agreeing generally with B. Yatesii, the stem is specifically separated on the ground that the petiole-bases are more expanded laterally and because of the occurrence of several vascular cylinders (fig. 578), sometimes as many as eight, each with a maximum diameter of 1 cm. Dr Stopes thinks it possible that B. buzzardensis is an older form of B. Yatesii.
Bucklandia squamosa (Brongniart).
Sternberg first described this species as Conites Bucklandi[1344] and regarded it as a cone bearing large imbricate cone-scales; it was named by Brongniart Bucklandia squamosa[1345] and Carruthers[1346] retained this designation. The type-specimen, in the Oxford Museum, from the Stonesfield Slate is 18 cm. long, showing in the lower part a cast of the pith. The surface of the stem is covered with thick imbricate petiole-bases very like those on the stem of a recent Encephalartos.
Bucklandia (Fittonia) squamata (Carruthers).
Carruthers[1347] founded the genus Fittonia on a single specimen from the Wealden beds of the Isle of Wight, separating it from Bucklandia on the ground of the occurrence on a portion of the stem of large imbricate leaf-bases which are at first reflexed and then ascending; the stem is also broader and more tuberous than most species of Bucklandia. The type-specimen, in the Museum of the Geological Survey (Jermyn street), bears a close resemblance to a trunk of a recent Encephalartos, but the part of the stem from which the imbricate stumps have fallen is practically identical with a Bucklandia. As in certain recent Cycads the surface-features probably changed with the age of the plant; when the foliage-leaves were first shed a portion of the ascending petiole remained on the stem, and at a later stage this was cut off leaving a clean-cut rhomboidal scar like those on the Bucklandia shown in fig. 576. The difference between Fittonia and Bucklandia may, therefore, be a question of age. While substituting Bucklandia for Fittonia as the generic name the latter designation is added in parentheses to denote the possession of certain features which, though possibly of generic value, are not regarded as sufficiently important morphologically to warrant generic recognition.
The type-specimen of Saporta’s species Fittonia insignis[1348], in the Paris Museum, from the Oxfordian of Poitiers, appears hardly distinguishable from F. squamata Carr. Another type with broader imbricate petiole stumps is described by Saporta from the Portlandian near Boulogne as Fittonia Rigauxi[1349].
Bucklandia indica sp. nov.
Oldham and Morris[1350] and subsequently Feistmantel[1351] described some specimens of Cycadean stems from the Rajmahal Hills of India of Lower Jurassic age: the latter author regarded them as stems of Williamsonia because of their association with flowers of that type, a conclusion fully justified by the evidence. Feistmantel also called attention to the resemblance of the Indian stems to specimens described from British strata as Bucklandia and Yatesia. Although the Indian examples are very similar to stems from Mexico discovered by Wieland[1352] and to some of the English types, it seems desirable to refer to them under a specific name and I therefore suggest the institution of the specific name indica, the type-specimen being that represented in fig. 579. This specimen is particularly interesting because it affords some information as to anatomical features and is one of the few fossil stems preserved in organic connexion with leaves (fig. 579, B). A short account of it was published in 1900[1353] and more recently Miss Bancroft[1354] has made a fuller investigation of this and other Indian specimens. The stem shown in fig. 579 from the Rajmahal Hills, and now in the British Museum, bears fronds of Ptilophyllum cutchense Morr., a type that appears to be indistinguishable from P. pecten; and with similar stems from the same beds are associated flowers of Williamsonia. Miss Bancroft describes a bract-covered shoot which agrees very closely with those of English stems reproduced in figs. 541, 542. In addition to the evidence based on close association, there is the more important argument furnished by the discovery of ramental hairs like those on the bracts of Williamsonia scotica and of anatomical characters in the bracts similar to those in the Scotch strobilus. The persistent leaf-bases are far from uniform in size; in this respect and in their form they agree closely with those on Bucklandia stems from English and Mexican localities. The secondary wood is more compact than in recent Cycads or in Cycadeoidea, though it resembles that of Cycadeoidea micromyela; the medullary rays are uniseriate and the tracheids have multiseriate bordered pits on their radial walls instead of the scalariform pitting in the majority of Cycadeoidea stems. Secretory canals are abundant in the parenchymatous ground-tissue; the cambium and phloem are not preserved[1355].
The transparent nature of the silicified material rendered very difficult the examination of the tissues, but enough was discovered to show that these Indian stems are characterised by certain features, the more compact nature of the secondary xylem and the presence of multiseriate pitting, which distinguish them from the Cycadeoidea type. Further knowledge of the anatomical features of the Williamsonia (Bucklandia) stems from other localities might enable us to recognise these or other peculiarities as constant distinguishing characters of Bucklandia in contrast to the Cycadeoidea stems which bore the Bennettites type of flower.
Cycadeomyelon. Saporta.
Casts of the pith-cavity of Cycadean stems, like that shown in fig. 575 projecting beyond the armour of leaf-bases, are occasionally found as separate fossils and cannot always be referred to a particular species of stem. For such detached casts Saporta[1356] instituted the name Cycadeomyelon: they are characterised by their comparatively large diameter and by the possession of surface-features similar to those on the corresponding cast from a recent Cycadean stem shown in fig. 398, namely spirally disposed, more or less prominent, lozenge-shaped areas formed by the sand or mud filling the cavities left on the decay of the parenchyma of the broad medullary rays of a manoxylic stem. Occasionally a slit at the lower end of a medullary ray area marks the position of the leaf-trace bending outwards from the lower angle of the mesh in the xylem-lattice[1357]. Lignier figures part of a pith-cast of Cycadeomyelon Apperti[1358] in which each medullary-ray area has a circular depression and not a slit extending from the lower angle: this may indicate that the surface shown on the cast is slightly external to the inner edge of the stele and in a plane where the leaf-traces were embedded in the parenchyma of the rays and free from the xylem-cylinder.
Large and branched examples of Cycadeomyelon were figured by some of the earlier authors from English Wealden beds as species of Clathraria[1359] and in many cases these are undoubtedly pith-casts of Bucklandia stems: a similar cast is figured under this name by Schenk from the Wealden of North Germany. From Liassic beds in Normandy Lignier figures two species of Cycadeomyelon, C. Apperti and C. densecristatum. The surface-features of Cycadeomyelon resemble those of the Palaeozoic genus Tylodendron (see Vol. iv.), but in the latter genus the nodal swellings are a characteristic peculiarity. Though medullary casts of this type are of no great botanical importance and their specific distinctions are of little value, it is safe to assume that broad medullary casts with comparatively large lozenge-shaped areas belong to Cycadean stems, while narrower specimens with smaller lozenges are more likely to be pith-casts of Coniferous stems.
Lester Ward[1360] instituted the genus Feistmantelia for some Lower Cretaceous casts from the Black Hills which he compared with an Indian fossil from Cutch described by Feistmantel as ‘the stem of a Coniferous plant[1361],’ and with pith-casts figured by Stokes and Webb as Clathraria anomala. It is impossible to determine the systematic position of such imperfect specimens as that on which Ward founded his species F. oblonga: they may, as Hollick and Jeffrey[1362] suggest, be casts of the bark of some Conifer; there is certainly no good reason for connecting them with Cycads.
COLYMBETES. Stopes.
Colymbetes Edwardsi Stopes. This genus[1363] is founded on the inner portion of a petrified trunk which was probably cylindrical and more than 12 cm. in diameter, consisting of a pith, 7·5 cm. in diameter, and part of a vascular cylinder of remarkable structure. The type-specimen is of Aptian age and may have come from Leighton Buzzard (Bedfordshire). The pith (fig. 580, p) consists of large parenchymatous cells and numerous secretory canals: the perimedullary zone, pm, is characterised by the occurrence of loosely disposed tracheids in groups and radial rows pursuing a sinuous longitudinal course in the accompanying parenchyma. The tracheids in this region are small in diameter and have oval, scalariform, or circular pits. Abutting on the perimedullary zone is the secondary xylem the inner edge of which forms bays, and this is composed of alternating zones of vertical and horizontal tracheids (fig. 580, y1–x5; fig. 581) with bordered, scalariform, pits on their walls traversed by medullary rays generally biseriate and from 4 to 30 cells deep. The disposition of the tracheids is such as to render transverse and radial longitudinal sections practically identical in appearance; the first zone of secondary xylem with its bayed inner edge consists of vertically running elements; this is succeeded by a zone in which the tracheids pursue a horizontal course, and beyond this second zone is another band of vertical elements (fig. 581). ‘Where the one zone passes into the next, a curving of the elements is frequently evident, and in a few cases it is quite possible to trace a single radial series of tracheids through an angle of 90° running in the same section, first as a transverse and then as a vertical series. One and the same medullary ray also can sometimes be followed, first in transverse and then in radial longitudinal section, which later again turns to true transverse. The inference is therefore drawn that there was but a single cambium, which had periodic changes of direction.’ Leaf-traces (fig. 580, lt) are large and numerous; they are spirally disposed and pass nearly straight through successive xylem-zones: each trace consists of a small-celled ground-tissue including stone-cells and patches of tracheids in more or less regular radial rows. Tangential sections of the wood show that the tracheids follow a sinuous course forming loops enclosing numerous medullary rays.
As the pith and xylem are the only tissues preserved it is on their structure that any speculation as to affinity must be based. The close arrangement of the leaf-traces (about 1 cm. apart), as Dr Stopes says, indicates small leaf-bases, assuming that each leaf received a single trace. In some respects the xylem and medullary rays resemble those of Cycads, and the author of the genus includes it in the Cycadophyta; but as she points out there are many peculiar features, and it is clearly impossible to assign the new type to a more precisely defined position. The possibility of any purely mechanical explanation of the course of the tracheids in the alternating zones is ruled out by the straight course of the outgoing leaf-traces, and it would seem that the cambium must have turned over at right-angles at regular intervals during the growth of the stem.
Cycadolepis. Saporta.
This name was used by Saporta[1364] for linear-lanceolate scales from Upper Jurassic rocks in France which he compared with bud-scales of recent Cycads. The imperfect scale described as Cycadolepis villosa bears a striking resemblance to the hairy bracts of Williamsonia and may well belong to that genus. Saporta’s term may be usefully employed in a more extended sense, including not only lanceolate scales but larger and much broader scales resembling the flattened petiole-bases on stems of Macrozamia, Encephalartos, and some other recent genera, as well as detached carpellary scales, other than Cycadospadix, and microsporophylls which cannot be assigned to a particular stem. Two qualifying subgeneric terms have been proposed[1365]:
i. Cycadolepis (Dory-Cycadolepis). Scales more or less linear-lanceolate like those described by Saporta and a specimen from Jurassic rocks of India named by Feistmantel[1366] Cycadolepis pilosa. This type of Cycadolepis may be identical with the bracts of Williamsonia flowers, though in the absence of any definite evidence of such affinity the provisional generic name is more appropriate.
ii. Cycadolepis (Eury-Cycadolepis). Broadly oval or orbicular thick scales (figs. 582, 583), the broadest part being frequently nearer the distal than the proximal end. These larger scales though usually found as detached fossils have in one instance been obtained attached to an imperfectly preserved stem.
Eury-Cycadolepis sp.
This type of scale, represented by specimens from the Wealden of Sussex[1367] (figs. 582, 583), reaches a length of 13 cm. and a breadth of 7 cm. and is sometimes almost orbicular. The lamina is convex but shows no definite venation and bears a close resemblance to the scale-like petiole-stumps on an old stem of Macrozamia. On some of the smaller specimens (fig. 583) several forked veins extend vertically from the broad base. Since these specimens were first described additional examples have been discovered in the Wealden beds of Sussex, some of which are attached to a piece of stem[1368] in such a manner as to give support to the view that they are leaf-bases very similar to those on such fossil stems as Bucklandia (Fittonia) Rigauxi (Sap.)[1369] and B. (Fittonia) squamata (Carr.)[1370]. One partially carbonised scale yielded pieces of cuticle showing numerous stomata similar to those of recent Cycads and the outlines of very thick-walled epidermal cells[1371].
Eury-Cycadolepis Jenkinsiana (Tate).
The large and approximately orbicular or broadly ovate scales so named are believed to be identical with Tate’s Cyclopteris Jenkinsiana[1372] from the Uitenhage series of Cape Colony (Wealden). The scales reach a length of 12 cm. and were attached by a broad base; the lamina, which may be strongly bent as though folded over some immature organ as a protective bract, shows numerous repeatedly forked veins of the Cyclopteris type and several anastomosing and irregular lines between the veins suggesting that the scales were tomentose.
II. Reproductive Organs of Cycadean Plants other than those of the Bennettitales.
The fact that practically all known Cycadean stems bore flowers either of the Bennettites or Williamsonia type prepares us for the scarcity of reproductive organs like those of recent Cycads. No specimens have been discovered in a petrified state affording any evidence of their close affinity to the cones, sporophylls, or seeds of the Cycadales. Such genera as Cycadospadix, Androstrobus, and Zamiostrobus, as the following descriptions show, are founded on material that is too imperfect to throw much light on their true morphological nature. The probability is that some at least of the specimens included in these genera are the reproductive organs of Cycadean plants more closely allied to the existing Cycads than to the Bennettitales. Among the numerous fossil seeds referred to such genera as Cycadeospermum and Cycadinocarpus there are but few that can confidently be assigned to the Cycadales rather than to the Ginkgoales or Coniferales. While the seeds of the Bennettitales are clearly distinguished by their much smaller size from those of modern Cycads, many of the latter agree in size and form with those of some other Gymnosperms and in the absence of anatomical details could not easily be identified as fossils. Some of the examples included in the miscellaneous collection described by authors as species of Carpolithus or Carpolithes agree closely in external features with the seeds of modern Cycads, but it is seldom possible to accept them as undoubted records of Cycadalean plants.
The general conclusion is that such meagre evidence as we possess affords strong confirmation of the conclusion based on stems and foliage from Jurassic and Cretaceous strata, namely that the present representatives of the Cycadophyta are a relatively late product of evolution, though retaining in their anatomical features many survivals from a remote antiquity. The occurrence of Cycadean characteristics in the vegetative organs of the Medulloseae and the recurrence of what may be called the Cycadean seed-plan, with certain more or less striking peculiarities reminiscent of earlier stages of evolution, in several types of Palaeozoic seeds such as Cycadinocarpus, Stephanospermum, Lagenostoma and others bear testimony to the antiquity of the Cycadean stock.
CARPOLITHUS[1373]. Linnaeus.
This generic name, as Nathorst[1374] has recently pointed out, was used by Linnaeus in 1768 for ‘Phytolithus fructus’ and has therefore priority over Sternberg’s genus Carpolites employed in 1825. Lester Ward[1375] attributes Carpolithus to Stokes and Webb (1824) and states that in the plural form the name was used by Walch in 1771. Carpolithus is a convenient term to apply to fossil seeds that cannot be assigned to a particular group of plants and which do not exhibit any peculiarities of form sufficiently striking to deserve generic recognition. Pomel[1376] proposed the genus Ulospermum but it never came into general use. Schimper’s genus Cycadinocarpus and Saporta’s Cycadeospermum (preferable in its morphological implication), though useful in the case of detached seeds of undoubted Cycadean affinity, can seldom be employed without an admission that they may imply a relationship that cannot be absolutely established. In the great majority of cases the better plan is to be content with the more non-committal term Carpolithus with the addition of a family-name when there are reasonably good grounds for a more definite reference. No useful purpose would be served by attempting a complete survey of the numerous casts and impressions of supposed Cycadean seeds recorded in palaeobotanical literature, but a few types are briefly described as examples of specimens with fairly well defined characters, which are in all probability Cycadean.